Add to ORKGObservations using NORAD radar showed that man made debris exceeds the natural environment for large objects. For short times (a few days to a few weeks) after solid rocket motor (SRM) firings in LEO, man made debris in the microparticle size range also appears to exceed the meteoroid environment. The properties of the debris population between these size regimes is currently unknown as there has been no detector system able to perform the required observations. The alternatives for obtaining data on this currently unobserved segment of the population are assessed
The current Lower Earth Orbit (LEO) environment has become overly crowded with space debris. An eval...
Man made orbital debris has become a serious problem. Currently NORAD tracks over 7000 objects in or...
Space debris is currently an extremely serious problem for any operations in space, including naviga...
What is currently known about the orbital debris flux is from a combination of ground based and in-s...
A simple instrument based on present-epoch technology for optical detection of orbital debris is des...
The Orbiting Meteoroid and Debris Counting Experiment (OMDC) flew for approximately 90 days in a hig...
The NASA Orbital Debris Program Office (ODPO) has created and validated high fidelity populations of...
Earth orbital debris issues and recommended future activities are discussed. The workshop addressed ...
The Long Duration Exposure Facility has provided the most complete in-situ study of the near Earth e...
The Long Duration Exposure Facility has provided the most complete in-situ study of the near Earth e...
For many years, the NASA Orbital Debris Program Office has been collecting measurements of the orbit...
Access to space and the preservation of the near-Earth space environment is of critical significance...
The orbital debris environment model is intended to be used by the spacecraft community for the desi...
The continual monitoring of low Earth orbit (LEO) debris environment using highly sensitive radars i...
Orbital debris scientists from major international space agencies, including JAXA and NASA, have wor...
The current Lower Earth Orbit (LEO) environment has become overly crowded with space debris. An eval...
Man made orbital debris has become a serious problem. Currently NORAD tracks over 7000 objects in or...
Space debris is currently an extremely serious problem for any operations in space, including naviga...
What is currently known about the orbital debris flux is from a combination of ground based and in-s...
A simple instrument based on present-epoch technology for optical detection of orbital debris is des...
The Orbiting Meteoroid and Debris Counting Experiment (OMDC) flew for approximately 90 days in a hig...
The NASA Orbital Debris Program Office (ODPO) has created and validated high fidelity populations of...
Earth orbital debris issues and recommended future activities are discussed. The workshop addressed ...
The Long Duration Exposure Facility has provided the most complete in-situ study of the near Earth e...
The Long Duration Exposure Facility has provided the most complete in-situ study of the near Earth e...
For many years, the NASA Orbital Debris Program Office has been collecting measurements of the orbit...
Access to space and the preservation of the near-Earth space environment is of critical significance...
The orbital debris environment model is intended to be used by the spacecraft community for the desi...
The continual monitoring of low Earth orbit (LEO) debris environment using highly sensitive radars i...
Orbital debris scientists from major international space agencies, including JAXA and NASA, have wor...
The current Lower Earth Orbit (LEO) environment has become overly crowded with space debris. An eval...
Man made orbital debris has become a serious problem. Currently NORAD tracks over 7000 objects in or...
Space debris is currently an extremely serious problem for any operations in space, including naviga...